Three-dimensional memory device having epitaxial germanium-containing vertical channel and method of making thereof

An alternating stack of insulating layers and spacer material layers is formed over a semiconductor substrate. Memory openings are formed through the alternating stack. An optional silicon-containing epitaxial pedestal and a memory film are formed in each memory opening. After forming an opening thr...

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Hauptverfasser:	Obu, Tomoyuki, Kinoshita, Hiro, Hada, Tsuyoshi, Chowdhury, Murshed, Suyama, Atsushi, Pachamuthu, Jayavel, Liyanage, Luckshitha Suriyasena, Kang, Daewung, Gunji-Yoneoka, Marika, Kai, James
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Sprache:	eng
Schlagworte:	ELECTRICITY
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creator	Obu, Tomoyuki Kinoshita, Hiro Hada, Tsuyoshi Chowdhury, Murshed Suyama, Atsushi Pachamuthu, Jayavel Liyanage, Luckshitha Suriyasena Kang, Daewung Gunji-Yoneoka, Marika Kai, James
description	An alternating stack of insulating layers and spacer material layers is formed over a semiconductor substrate. Memory openings are formed through the alternating stack. An optional silicon-containing epitaxial pedestal and a memory film are formed in each memory opening. After forming an opening through a bottom portion of the memory film within each memory opening, a germanium-containing semiconductor layer and a dielectric layer is formed in each memory opening. Employing the memory film and the dielectric layer as a crucible, a liquid phase epitaxy anneal is performed to convert the germanium-containing semiconductor layer into a germanium-containing epitaxial channel layer. A dielectric core and a drain region can be formed over the dielectric layer. The germanium-containing epitaxial channel layer is single crystalline, and can provide a higher charge carrier mobility than a polysilicon channel.
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title	Three-dimensional memory device having epitaxial germanium-containing vertical channel and method of making thereof
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